During glycolysis aerobic condition pyruvate is produced. 1 molecule of glucose produces two molecules of pyruvate.
Pyruvate is oxidised to acetyl CoA and CO2. In the furthur process the final outcome is 5 ATP.
Therefore one molecule of pyruvate if consumed will generate 5 ATP molecules.
If you consume ONE molecule of pyruvate, how many ATP molecules will you generate?
How many molecules of NAD are reduced as one molecule of pyruvate is metabolized through one turn of the Krebs cycle?
30) How many ATP equivalents result from the total transformation of one glucose molecule after it has undergone glycolysis, transformation from pyruvate to Acetyl-CoA, and transformed through the Citric Acid Cycle? A) 2 ATP molecules B) 5 ATP molecules C) 12 ATP molecules D) 20 ATP molecules E) 32 ATP molecules
1. If one (1) molecule of phosphonenol pyruvate is oxidized via glycolysis, the PDC, and the CAC in a kidney cell, how many protons are pumped into the inner membrane space at ETC Complex III? 2. If one (1) molecule of glyceraldehyde 3-phosphate is oxidized via glycolysis, the PDC, and the CAC in a skeletal muscle cell, how many protons are pumped into the inner membrane space at ETC Complex IV? 3. If two (2) molecules of pyruvate are oxidized...
1) How many CO2 molecules are produced by pyruvate dehydrogenase and the TCA cycle per molecule of glyceraldehydes-3-phosphate that goes through glycolysis, pyruvate dehydrogenase, and the TCA cycle? a.1 b.2 c.3 d.4 e.5 f.6 How many NADPH molecules are produced by pyruvate dehydrogenase and the TCA cycle per molecule of phosphoenolpyruvate that goes through glycolysis, pyruvate dehydrogenase, and the TCA cycle? a.3 b.4 c.6 d.8 e.0
33. (6 pts) How many ATP molecules will be produced from complete oxidation of one molecule of acetyl-CoA by the citric acid cycle? Explain your reasoning and show your calculations
During EMP glycolysis, 1 molecule of glucose is broken down into two molecules of pyruvate and 2 molecules of NADH are produced. During fermentation, 1 molecule of pyruvate is reduced. During this process, one molecule of NADH is oxidized. If 34 molecules of glucose are broken down during glycolysis, and all the resultant molecules of pyruvate are reduced by fermentation, how many molecules of NADH will remain?
How many ATP molecules are ultimately produced as a result of the complete metabolism of one molecule of glucose? 36 146 64 24 34 18
also the # of molecules produced of ATP, NADH, and CO2 FADH2 3. (a) If you were to add an inhibitor that specifically GTP blocked the activity of pyruvate kinase, how many molecules per glucose molecule of each of the products listed would you expect to be produced in the presence of the inhibitor. (b) Which intermediate would you expect to build- up? B) PEP will build up from the guese. 4. (a) If you were to add an inhibitor...
8,9,10 please 6. Consider the glycolysis of a single glucose molecule. a. How many ATP molecules are used up during the first 3 reactions? b. How many ATP molecules are produced by the last 4 reactions? c. What is the net ATP balance for glycolysis? 7. Is 02 a reactant in any of the reactions of glycolysis? 8. During glycolysis, there is an oxidation reaction that is necessary in order for any ATP to be produced. Name the oxidizing agent...
To synthesize one molecules, the Calvin Cycle uses: How many molecules of CO2 How many molecules of ATP How many molecules of NaDPH? How many carbons does G3P have (Calvin Cycle)? How many molecules of G3P are required to make one sugar molecule (glucose)? Photorespiration is a problem that the majority of plants face. Explain what photorespiration is, and how certain plants have come it with two different but similar solutions to overcome this problem, Include details. (10 pts)